This course provides you with practical experience on PV systems and their building blocks, including batteries and power electronics. If you normally just know the theory behind battery performance, inverters, the efficiency losses due to different system
components; or the impact of module tilt, orientation and weather conditions on modules performance, in this course you will see − in real time – how they impact the operation of photovoltaic systems and their components in realistic scenarios.
You will gain this practical experience in a virtual lab environment in which you will conduct experiments. This course includes 3 parts focusing on electronic components and a system design:
Part 1 – Rechargeable batteries
You will experiment with applying rechargeable battery technology to photovoltaic systems and learn which parameters affect battery performance. You will also understand difference between Li-ion and lead-acid batteries.
Part 2 – Power Electronics
You will measure the operational characteristics of charge controllers, grid-connected and stand-alone inverters (off- and on-grid), and maximum power-point trackers.
Part 3 - Photovoltaic systems
You will design and analyze the performance of a complete photovoltaic system. Specifically you will analyze the effect of module tilt and orientation; investigate the losses; study the operation of a grid-connected system and determine its efficiency; and evaluate the effect of rain and shade on the system power output.